QoS traffic mapping for a multi-participant session in unified communications networks

Abstract: Unified communications (UC) offers users an uninterrupted communication service regardless of the device which the user is using, the heterogeneous networks to which he might be connected, the physical and logical context in which he exists and the diversity of QoS requirements by different session participants and services. Providing and maintaining an acceptable level of QoS, as perceived by all session participants, is a major issue in UC as well as in next generation networks (NGN) at large. QoS provisioni… Show more

“…To efficiently utilize limited network resources, it is important to classify Internet multimedia traffic using a finer granularity, so that Internet multimedia services can be improved with better end-to-end QoS guarantee by ISPs. In order to effectively provide end-toend QoS in heterogeneous networks, authors in [12] emplyed an Application Service Map (ASM) to classify traffic, while traffic was divided into eight Unified Communication (UC) classes in [13]. In addition, online allocation of communication and computation resources for different real-time multimedia services was considered in [14] to provide an optimal service to users.…”

Internet multimedia traffic classification from QoS perspective using semi-supervised dictionary learning models

“…To efficiently utilize limited network resources, it is important to classify Internet multimedia traffic using a finer granularity, so that Internet multimedia services can be improved with better end-to-end QoS guarantee by ISPs. In order to effectively provide end-toend QoS in heterogeneous networks, authors in [12] emplyed an Application Service Map (ASM) to classify traffic, while traffic was divided into eight Unified Communication (UC) classes in [13]. In addition, online allocation of communication and computation resources for different real-time multimedia services was considered in [14] to provide an optimal service to users.…”

Internet multimedia traffic classification from QoS perspective using semi-supervised dictionary learning models

Quality of service interworking over heterogeneous networks in 5G

Enhanced Rough K-Means Based Flow Aggregation for QoS Mapping in Heterogeneous Network Environments